Method and apparatus for self-collecting intravaginal sample for hpv test

ABSTRACT

The present invention relates to a method for self-collecting intravaginal sample for HPV test. The self-collecting intravaginal sample apparatus of the present invention comprises: an open end part, a closed end part, a tube providing an inner space that a finger could enter to insert an apparatus into women&#39;s vagina, a collecting part collecting intravaginal sample and attached outer surface of the closed end of the tube, and a turner preventing the collecting part being contaminated from an outer contaminant; wherein the collecting part collects a sample from the vagina by turning over the tube inside out so that collecting part may place inside of the tube.

BACKGROUND OF THE INVENTION

The present invention disclosed herein relates to an apparatus for HPVtest, but in more detail it relates to a method and apparatus forself-collecting intravaginal sample for HPV test by inserting anapparatus herself.

Human papilloma virus; HPV has been a main cause of the uterine cervicalcancer. The uterine cervical cancer is the fourth most frequent cancerby 10.1% among frequent cancer caused in women and when it includesepithelium cancer, it takes the first cancer as 22.3%. Every year, over7,000 patients are occurred from this cancer and it is the mostimportant cancer among Korean women as it occurs for 26.5 subject womenout of 10,000 subject women. To decrease death rate caused by theuterine cervical cancer, an early diagnosis is required. Typical methodto test uterine cervical test is a pap smear, which inserts a tool suchas swab or cyto-brush into woman's vagina to collect sample, or atraditional method colposcopy. Although there are so many disadvantagesof these methods there is no other method so these methods has been useduntil now.

However, since cervical cancer HPV test can only be tested by visingobstetrics and gynecology, a lot of women especially young women feelshame so they hesitate to take HPV test which leads to missing an earlytreatment. Also, when inserting a sample collecting apparatus in women'svagina could damage inner wall of the vaginal or cause pain bystimulating inner wall of the vaginal. After collecting sample from thevagina and during taking out the sample outside of the vagina, it couldcontaminate the collected sample by other secretion of inner side of thevagina.

SUMMARY OF THE INVENTION

An embodiment of the present invention is to provide to a method and anapparatus for self-collecting intravaginal sample for HPV test byinserting an apparatus woman herself.

An embodiment of the present invention is to provide to a method and anapparatus for self-collecting intravaginal sample for HPV test toprevent contamination of a sample after collecting the sample.

The objects of the inventive concept are not limited to the abovementioned descriptions. Other objects thereof will be understandable bythose skilled in the art from the following descriptions.

According to an aspect of the present invention, the vaginal sampleself-collecting apparatus comprises: a tube providing an inner spacethat a finger could enter to insert an apparatus into women's vagina andcomprising a latter end having an open end part and a front end having aclosed end part; and a collecting part that collects sample of thevagina, wherein the collecting part is provided at an outer surface ofthe closed end part of the tube.

Also, the apparatus for self-collecting intravaginal sample furthercomprises a turner to prevent the collecting part being contaminatedfrom an outer contaminant by turning over the tube inside out so thatthe collecting part which collects a sample from the vagina may placeinside of the tube.

Also, the turner comprises a pull string, wherein one end of the pullstring is attached inner surface of the closed end part of the tube andthe other end of the pull string is installed as exposed to the outsidethrough an open end part of the tube.

Also, the turner may comprise a flow channel, wherein the flow channelprovides a moving path for the sample to be provided to a diagnosisapparatus.

Also, the turner comprises a flexible hose that the flow channel isformed, wherein the flexible hose comprises a flow part and a leak part,wherein the flow part connects the flow channel and the closed end partof the tube, wherein the leak part is exposed to outside through theopen end part of the tube. The leak part may be blocked.

Also, the collecting part may comprise a bumpy surface which is formedat the outer surface of the closed end part of the tube.

Also, the tube may further comprise an extension part which preventsfriction between a finger and the tube so that the front end may turninside out when taking out the finger, wherein the extension part placesin between the front end and the latter end.

Also, the extension part may have wider area than the front end.

Also, the extension part may have at least one wrinkle.

Also, the front end may have relative higher flexibility and elasticitythan the extension part.

Also, the tube may further comprise a tight band and a sealed member,wherein the sealed member is provided at circumference of the open endpart.

Also, the tube may be composed of at least one of natural rubber,synthetic rubber, and silicon.

Also, the apparatus may further comprise a protective cover, wherein theprotective cover encases the tube and protects the collecting part fromthe outer contaminants when it is inserted inside of the women's vagina.At the closed end part of the protective cover, a tear line may beformed.

According to an aspect of the present invention, the method forself-collecting sample of a vagina comprises: a inserting step insertinga finger in the tube then inserting the tube into women's vagina,wherein the tube has the open end part and the closed end part; acollecting step collecting a sample of vagina from the collecting partby using the finger that is inserted in the tube, wherein the collectingpart is attached outer surface of the end part of the tube; a turnoverstep turning over inside out of the tube to place the colleting partinside of the tube and to prevent contaminating the collecting part fromoutside contaminants, wherein the collecting part has already collectedthe sample of the vagina.

Also, the turnover step turns over inside out of the tube by pulling thepull string after taking out a finger, wherein the tube is inserted inwomen's vagina, and wherein one end of the pull string is attached innersurface of the closed end of the tube.

Also, a sealing step may further be comprised, wherein the sealing stepseals the open end part of the tube after the turnover step.

Also, an injecting step may further be comprised, wherein the injectingstep injects a fixing solution inside of the tube to prevent deformationof the sample, after the turnover step.

Also, the collecting part may comprise a signal color material thatcould be identified by the naked eye in reacting to HPV.

According to an embodiment of the present invention, the apparatus forself-collecting intravaginal sample has particular effects which are:promoting user's convenience as it is easier for woman to collect asample from her vagina; and increasing reliability of HPV test as we cantreat a collected sample more sanitarily.

According to an embodiment of the present invention, there is aparticular effect that we can easily provide the collected sample to adiagnosis apparatus.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of an apparatus for self-collectingintravaginal sample in accordance with the first embodiment of thepresent invention.

FIG. 2 is a plan view of an apparatus for self-collecting intravaginalsample in accordance with the first embodiment of the present invention.

FIGS. 3 to 6 are drawings of the method for self-collecting intravaginalsample by stages using an apparatus for self-collecting intravaginalsample.

FIG. 7 is a drawing of the second embodiment of the present invention.

FIG. 8 is a perspective view of an apparatus for self-collectingintravaginal sample in accordance with the third embodiment of thepresent invention.

FIG. 9 is a plan view of an apparatus for self-collecting intravaginalsample in accordance with the third embodiment of the present invention.

FIGS. 10 to 14 are drawing of the method for self-collectingintravaginal sample by stages using an apparatus for self-collectingintravaginal sample.

FIG. 15 is a perspective view of an apparatus for self-collectingintravaginal sample in accordance with the fourth embodiment of thepresent invention.

FIG. 16 is a plan view of an apparatus for self-collecting intravaginalsample in accordance with the fourth embodiment of the presentinvention.

FIGS. 17 and 18 are drawings of an explanation of the method forself-collecting intravaginal sample by using an apparatus forself-collecting intravaginal sample.

FIG. 19 is a drawing of a modification exemplary of the presentinvention.

DETAILED DESCRIPTION

The present invention may apply variety changes and have manyembodiments. Certain embodiments are indicated in drawing and explainedin detailed explanations. However, the present invention is not meant tobe limited in certain embodiments, it should be understood that thepresent invention includes all the changes, equivalents, andalternatives. When explaining the present invention detaileddescriptions of the prior art may be omitted when it is determined thatit clouds the important points of the invention.

The words used in this application are to explain certain embodimentsand it is not meant to limit the present invention. Singular formsinclude plural forms as well, unless the context clearly indicatesotherwise. The terms “comprise” or “have,” etc. of the application is tospecify the presence of stated features, integers, steps, operations,elements, and/or components, but do not preclude the presence oraddition of one or more other features, integers, steps, operations,elements, components, and/or groups thereof.

The first terms or second terms, etc. may be used to explain varietycomponents, but the components should not be limited by the terms. Theabove terms are only used to differentiate a one component from theother components.

Various example embodiments will be described more fully hereinafterwith reference to the accompanying drawings. In explaining embodimentsreferring to attached drawings, components which are the same orcorresponding to each other regardless of drawing number have the samereference number and the duplicate explanations may be omitted.

The First Embodiment

FIG. 1 is a perspective view of an apparatus for self-collectingintravaginal sample in accordance with the first embodiment of thepresent invention. FIG. 2 is a plan view of an apparatus forself-collecting intravaginal sample in accordance with the firstembodiment of the present invention.

Referring to FIGS. 1 and 2, the apparatus for self-collectingintravaginal sample 10 comprises a tube 100, a collecting part 200, anda turner 300.

The tube 100 has an open end part 110 and a closed end part 120, andprovides an inner space where a finger may enter so that the tube caninsert inside of woman's vagina. The tube 100 is to pass through apassage of an inner side of a vagina so that the closed end part 120 ofthe tube can reach a cervix. Therefore, the tube 100 may be a cylinderstructure that is easily inserted in inner side of vagina with a fingerin it.

The tube 100 may be provided with a sealed member 130 and a tight band130 at the circumference of the closed end part 110.

The tight band 130 provides an adhesion so that the tube 100 wouldn'ttake off from a finger by an artificial strength.

The sealed member 130 is to seal the open end part 110 when the tube 100is turned over. In the embodiment the sealed member 130 may be providedas a bundle of string at the circumference of the open end part 110.However, the sealed member 130 may be provided with different sealedstructures such as adhesively sealing the open end part 110 by applyingglue at the outer surface of the open end part when the tube 100 isturned over or as zip locking the open end part 110.

Meanwhile, the tube 100 may be composed of at least one of a naturalrubber, synthetic rubber, or silicon. For example, the tube 100 of theembodiment is provided with a silicon material.

The collecting part 200 may be provided as a pad form that attaches tothe outer surface of the closed end part 120 of the tube 100. Thecollecting part 200 is to collect sample of the cervix, and may beprovided with different hypo-allergenic forms like brush, cotton, wool,etc. that a cell could stick. Meanwhile, in the collecting part 200, amaterial that could cause an antigen-antibody reaction and a signalcolor material that could be seen by a naked eye in reacting to HPV maybe comprised.

A turnover member 300 is provided to prevent the collecting part 200contaminating from the outside contaminants, wherein the collecting part200 collects intravaginal sample by turning over inside out of the tube100 and placed inside of the tube 100. In an example, the turner 300comprises a pull string 310, where the one end of the turner 200 isinstalled as exposed to the outside through the open end part 110 of thetube 100. The other end of the turner 200 is attached inner side of theclosed end part 120 of the tube 100. That is, when the tube 100 isinserted inside of woman's vagina, the collecting part 200 is placedinside of the tube 100 by pulling the pull string 310 as taking out afinger and thereby turning over inside out of the tube 100.

FIGS. 3 to 6 are drawings of the method for self-collecting intravaginalsample by stages using an apparatus for self-collecting intravaginalsample.

The method for self-collecting intravaginal sample comprises aninserting step, a collecting step, a turnover step, and a sealing step.

(The inserting step) like FIG. 3, a user places her finger inside thetube 300 and inserts the tube 100 inside of her cervix through herintravaginal 1. (The collecting step) when the closed end part 120 ofthe tube 100 enters a cervix 2, the woman may collect a sample of theintravaginal to the collecting part 200 using her fingertip, wherein thecollecting part 200 is attached at the outer surface of the closed endof the tube 100. (The turnover step) To prevent contaminating thecollecting part 200 from outside contaminants, the collecting part 200is placed inside of the tube 100 by turning over inside out of the tube100, wherein the collecting part 200 comprises a collected intravaginalsample. Like FIGS. 4 and 5, the turnover step turns over inside out ofthe tube 100 by pulling the pull string 310 of the turner 300 aftertaking out the finger from the tube, wherein the tube 100 is insertedinside of the woman's vaginal.

Like FIG. 6, (the sealing step) prevents contaminating the sample bysealing the open end part 110 of the tube 100 after the turnover step.In here, injecting a fixing solution 900 step may be comprised toprevent deformation of the sample of inside of the tube 100 after theturnover step. That is, to test a uterine cervical cancer, the sampleshould be maintained as alive and therefore should be sealed afterinjecting the fixing solution inside of the tube 100 where the collectedsample is present inside of the collecting part 200. An alcoholicsolution or a solution which combines the alcoholic solution and asolution that could optimize a polymerase chain reaction examinationresult is appropriate for the fixing solution. There are ethanol,methanol, and etc. for alcoholic solution, and there are PBS buffersolution, paraformaldehyde, and etc. for optimizing a polymerase chainreaction examination result.

Like this, an apparatus for self-collecting intravaginal sample 10 hasno feeling of irritation as a user uses her finger to insert the tube100 inside of her cervix through her vagina. Especially, as a user caninsert the apparatus by adjusting her finger position depending on hervagina's position, form, and entry angle, the apparatus is useful easilycollecting an intravaginal sample and inserting the apparatus inside ofher cervix, and may prevent causing a pain by irritating an inner wallof the vagina or damaging the inner wall of the vagina.

A Second Embodiment

FIG. 7 is a drawing according to the second embodiment of the presentinvention. An apparatus for self-collecting intravaginal sample 10 aadded a protective cover 500 to prevent contaminating the collectingpart 200 while inserting the tube 100 inside of a vagina after insertinga finger in the tube 100. The protective cover 500 may be a cylinderform to cover the tube 100 with the front end is open and the end partis closed. Also, an end part 510 (counterpart of the closed end part ofthe tube) of the protective cover 500, a tear line 512 is formed to betorn easily. That is, when a user inserts her finger in the tube 100 andinserts the tube 100 inside of her cervix through her vagina, theprotective cover 500 protects the collecting part 200. And right beforethe collecting step, pulling a front end 520 of the protective cover 500will make the end part of the protective cover 500 to be torn easily byfollowing the tear line 512 and will be removed as taking out theprotective cover 500 outside of the vagina.

A Third Embodiment

FIG. 8 is a perspective view of an apparatus for self-collectingintravaginal sample in accordance with the third embodiment of thepresent invention. FIG. 9 is a plan view of an apparatus forself-collecting intravaginal sample in accordance with the thirdembodiment of the present invention.

Referring to FIGS. 8 and 9, the apparatus for self-collectingintravaginal sample 10 comprises the tube 100, the collecting part 200,and the turner 300.

The tube 100 has the open end part 110 and the closed end part 120, andprovides an inner space where a finger may enter so that the tube caninsert inside of woman's vagina. The tube 100 is to pass through passageof an inner side of a vagina so that the closed end part 120 of the tubecan reach a cervix. Therefore, the tube 100 may be a cylinder structurethat is easily inserted in inner side of vagina with a finger in it.

The tube 100 may be provided with the sealed member 130 and the tightband 130 at the circumference of the closed end part 110.

The tight band 130 provides an adhesion so that the tube 100 wouldn'ttake off from a finger by an artificial strength.

The sealed member 130 is to seal the open end part 110 when the tube 100is turned over. In the embodiment the sealed member 130 may be providedas a bundle of string at the circumference of the open end part 110.However, the sealed member 130 may be provided with different sealedstructures such as adhesively sealing the open end part 110 by applyingglue at the outer surface of the open end part when the tube 100 isturned over or as zip locking the open end part 110.

Meanwhile, the tube 100 may be composed of at least one of a naturalrubber, synthetic rubber, or silicon. For example, the tube 100 of theembodiment is provided with silicon material.

The collecting part 200 may be provided as bumpy form that forms at theouter surface of the closed end part 120 of the tube 100. That is, thecollecting part 200 may comprise several bumpy forms that form at theouter surface of the closed end part 120. The collecting part 200 is tocollect intravaginal sample and may be provided with different formslike bumpy form or groove form that a cell could stick. Meanwhile, inthe collecting part 200, a material that could cause an antigen-antibodyreaction and a signal color material that could be seen by a naked eyein reacting to HPV may be comprised.

The turner 300 is provided to prevent the collecting part 200contaminating from the outside contaminants, wherein the collecting part200 collects intravaginal sample by turning over inside out of the tube100 and placed inside of the tube 100. Also, the turner 300 provides aflow channel 320 that forms a sample moving route so that the sample maybe provided to an apparatus 20 (shown in FIG. 14).

In an example, the turner 300 is provided as a flexible hose 310 thatthe flow channel 320 is formed. The flexible hose 310 of the turner 300comprises a flow part 312 and the leak part 314, wherein the flow part312 is connected to the closed end part 120 of the tube 100 to becontacted, and wherein the leak part 314 exposed to the outside throughthe open end part 110 of the tube 100. The flow part 312 is opened sothat a fixing solution (dilution sample solution) may inflow when thetube 100 is turned over. The leak part 314 is closed to prevent randomleakage of the dilution sample solution, and is cut and used beforeproviding the dilution sample solution to the apparatus 20 (shown inFIG. 14).

That is, when the tube 100 is inserted inside of woman's vagina, thecollecting part 200 is placed inside of the tube 100 by pulling theturner 300 as taking out a finger and thereby turning over inside out ofthe tube 100. After that, the fixing solution 900 (shown in FIG. 13) isprovided to the apparatus 20 through the flow channel 320 of the turner300 after injecting the fixing solution 900 in the tube 100 and mixingthem together.

FIGS. 10 to 14 are drawing of the method for self-collectingintravaginal sample by stages using an apparatus for self-collectingintravaginal sample.

The method for self-collecting intravaginal sample comprises aninserting step, a collecting step, a turnover step, a fixing solutioninjecting step, a sealing step, and a dilution sample solution providingstep.

(The inserting step) like FIG. 10, a user places her finger inside thetube 300 and inserts the tube 100 inside of her cervix through herintravaginal 1. (The collecting step) when the closed end part 120 ofthe tube 100 enters a cervix 2, the woman may collect a sample of theintravaginal to the collecting part 200 using her fingertip, wherein thecollecting part 200 is attached at the outer surface of the closed endof the tube 100. (The turnover step) the collecting part 200 placesinside of the tube 100 by pulling the turner 300 and thereby turningover inside out of the tube 100. Therefore, the collecting part 200 maybe prevented from contamination from outside contaminants, wherein thecollecting part 200 has collected intravaginal sample.

Like FIGS. 11 and 12, the turnover step turns over inside out of thetube 100 by pulling the turner 300 after taking out the finger from thetube, wherein the tube 100 is inserted inside of the woman's vaginal.

Like FIG. 13, the fixing solution injecting step injects the fixingsolution 900 to the inside of the tube 100. The fixing solution 900 isinjected inside of the tube 100 to prevent deformation of a sample andto easily provide the sample to the apparatus 20. After the fixingsolution is injected, a sample is prevented from contamination bysealing the open end part 110 of the tube 100. For reference, analcoholic solution or a solution which combines the alcoholic solutionand a solution that could optimize a polymerase chain reactionexamination result is appropriate for the fixing solution. There areethanol, methanol, and etc. for alcoholic solution, and there are PBSbuffer solution, paraformaldehyde, and etc. for optimizing a polymerasechain reaction examination result.

Like FIG. 14, the leak part 314 of the turner is cut and in the dilutionsample solution providing step, the dilution sample solution inside ofthe tube 100 is leaked through the flow channel 320 of the turner. Thisleaked dilution sample solution may be easily provided to the apparatus20.

Like this, the apparatus for self-collecting intravaginal sample 10 hasno feeling of irritation as a user uses her finger to insert the tube100 inside of her cervix through her vagina.

Especially, as a user can insert the apparatus by adjusting her fingerposition depending on her vagina's position, form, and entry angle, theapparatus is useful easily collecting an intravaginal sample andinserting the apparatus inside of her cervix, and may prevent causing apain by irritating an inner wall of the vagina or damaging the innerwall of the vagina.

Also, contamination of a sample may be minimized when providing thesample from the apparatus for self-collecting intravaginal sample 10 tothe apparatus 20, because the apparatus for self-collecting intravaginalsample 10 can easily provide the fixing solution (dilution samplesolution) to the apparatus 20 through the flow channel 320 of the turner300, wherein the fixing solution is mixed with a cell sample.

A Fourth Embodiment

FIG. 15 is a perspective view of an apparatus for self-collectingintravaginal sample in accordance with the fourth embodiment of thepresent invention. FIG. 16 is a plan view of an apparatus forself-collecting intravaginal sample in accordance with the fourthembodiment of the present invention.

Referring to the FIGS. 15 and 16, the apparatus for self-collectingintravaginal sample 10 comprises the tube 100 and the collecting part200.

The tube 100 may comprise the latter end 110 having the open end part112, the front end 120 having the closed end part 122, and an extensionpart 130 in between. The tube 100 provides an inner space that a fingercould enter to insert a apparatus into women's vagina. The tube 100 isto pass through a passage of an inner side of a vagina so that theclosed end part 120 of the tube can reach a cervix. Therefore, the tube100 may be a cylinder structure that is easily inserted in inner side ofvagina with a finger in it.

The extension part 130 is formed in between the latter end 110 and thefront end 120 so that only the front end 120 may turnover when takingout a finger. The extension part 130 may be provided as there is nofriction with a finger. In an example, the extension part 130 comprisesat least one wrinkle. Also, the extension part 130 is appropriate tohave wider cross-section area than the front end 120. Also, theextension part 130 is appropriate to be provided with certain distancewith the finger. In another example, like FIG. 19, an extension part 130a may be formed with wide cross-section area to be not contacted withthe finger.

For reference, the front end 120 is appropriate to have relatively muchflexibility and higher friction than the extension part 130 so that itwill turnover easily when taking out a finger. That is, the front end120 may be formed covering a fingertip tightly.

As described above, when taking out the finger where the tube 100 isinserted in woman's vagina, the tube 100 is overturned to the closed endpart 122 of the front end 120 starting from a boundary of the extensionpart 130 and the front end 120. A reason for that is the front end 120has a strong friction because it is adhere to skin of the finger and theextension part has a minimal friction because it is separated from theskin of the finger.

Meanwhile, the tube 100 may be provided with the tight band 140 incircumference of the latter part 110. The tight band 140 provides anadhesion so that the tube 100 wouldn't take off from a finger by anartificial strength.

The tube 100 may be composed of at least one of a natural rubber,synthetic rubber, or silicon. In an example, the tube 100 of theembodiment is provided with a silicon material. In another example, theextension part 130 and the frond end 120 may be composed of differentmaterial.

The collecting part 200 may be provided as bumpy form that forms at theouter surface of the front end 120 of the tube 100. That is, thecollecting part 200 may comprise several bumpy forms that form at theouter surface of the front end 120 of the tube 100. The collecting part200 is to collect intravaginal sample and may be provided with differentforms like bumpy form or groove form that a cell could stick. Meanwhile,in the collecting part 200, a material that could cause anantigen-antibody reaction and a signal color material that could be seenby a naked eye in reacting to HPV may be comprised. In another example,the collecting part 200 may be provided as a pad form that attaches tothe outer surface of the closed end part 120 of the tube 100. Thecollecting part 200 is to collect sample of the cervix, and may beprovided with different hypo-allergenic forms like brush, cotton, wool,etc. that a cell could stick.

The method apparatus for self-collecting intravaginal sample using theapparatus for self-collecting intravaginal sample comprising abovedescriptions is like below.

The method for self-collecting intravaginal sample comprises aninserting step, a collecting step, a turnover step, and a sealing step.

(The inserting step) like FIG. 3, a user places her finger inside thetube 300 and inserts the tube 100 inside of her cervix through herintravaginal 1. (The collecting step) when the closed end part 120 ofthe tube 100 enters a cervix 2, the woman may collect a sample of theintravaginal to the collecting part 200 using her fingertip, wherein thecollecting part 200 is attached at the outer surface of the closed endof the tube 100. (The turnover step) when taking out a finger from thetube 130 which is inserted inside of woman's vagina, the front end 120of the extension part 130 overturns on the basis of the extension part130 and the collecting part 200 places inner side of the tube 100(reference, FIG. 18). Therefore, the collecting part 200 may beprevented from contamination from outside contaminants, wherein thecollecting part 200 has collected intravaginal sample.

After the turnover step, a sample maybe prevented from contamination bysealing the extension part 130 of the tube 100. In here, a stepinjecting the fixing solution to overturned front end 120 may becomprised to prevent deformation of the sample after the turnover step.That is, to test a uterine cervical cancer, the sample should bemaintained as alive and therefore should be sealed after injecting thefixing solution inside of the front end 120 where the collected sampleis present inside of the collecting part 200. An alcoholic solution or asolution which combines the alcoholic solution and a solution that couldoptimize a polymerase chain reaction examination result is appropriatefor the fixing solution. There are ethanol, methanol, and etc. foralcoholic solution, and there are PBS buffer solution, paraformaldehyde,and etc. for optimizing a polymerase chain reaction examination result.

Like this, an apparatus for self-collecting intravaginal sample 10 hasno feeling of irritation as a user uses her finger to insert the tube100 inside of her cervix through her vagina.

Especially, as a user can insert the apparatus by adjusting her fingerposition depending on her vagina's position, form, and entry angle, theapparatus is useful easily collecting an intravaginal sample andinserting the apparatus inside of her cervix, and may prevent causing apain by irritating an inner wall of the vagina or damaging the innerwall of the vagina.

Described explanations indicate implementation form of the presentinvention and may be changed or corrected within the equal scope of thedisclosed explanation and/or inventive concept or those skilled in art.Therefore, detailed descriptions of the present invention do not intendto limit the scope of the inventive concept but is to explain thepresent invention. Also, attached scope of claims may be understood toinclude other implementations.

1. An apparatus for self-collecting intravaginal sample comprising: atube providing an inner space that a finger could enter to insert anapparatus into women's vagina and comprising a latter end having an openend part and a front end having a closed end part; and a collecting partthat collects sample of the vagina, wherein the collecting part isprovided at an outer surface of the closed end part of the tube.
 2. Theapparatus of claim 1, wherein the apparatus for self-collectingintravaginal sample further comprises a turner to prevent the collectingpart being contaminated from an outer contaminant by turning over thetube inside out so that the collecting part which collects a sample fromthe vagina may place inside of the tube.
 3. The apparatus of claim 2,wherein the turner comprises a pull string, wherein one end of the pullstring is attached inner surface of the closed end part of the tube andthe other end of the pull string is installed as exposed to the outsidethrough an open end part of the tube.
 4. The apparatus of claim 2,wherein the turner comprises a flow channel, wherein the flow channelprovides a moving path for the sample to be provided to a diagnosisapparatus.
 5. The apparatus of claim 4, wherein the turner comprises aflexible hose that the flow channel is formed, wherein the flexible hosecomprises a flow part and a leak part, wherein the flow part connectsthe flow channel and the closed end part of the tube, and wherein theleak part is exposed to outside through the open end part of the tube.6. The apparatus of claim 2, the collecting part comprises a bumpysurface which is formed at the outer surface of the closed end part ofthe tube.
 7. The apparatus of claim 1, wherein the tube furthercomprises an extension part which prevents friction between a finger andthe tube so that the front end may turn inside out when taking out thefinger, and wherein the extension part places in between the front endand the latter end.
 8. The apparatus of claim 7, wherein the extensionpart have wider area than the front end.
 9. The apparatus of claim 7,wherein the extension part have at least one wrinkle.
 10. The apparatusof claim 7, wherein the front end have relative higher flexibility andelasticity than the extension part.
 11. The apparatus of claim 1,wherein the tube further comprises a sealed member which is provided atcircumference of the open end part.
 12. The apparatus of claim 1,wherein the tube further comprises a tight band which is provided atcircumference of the open end part.
 13. The apparatus of claim 1,wherein the tube is composed of at least one of natural rubber,synthetic rubber, and silicon.
 14. The apparatus of claim 1, wherein theapparatus for self-collecting intravaginal sample further comprises aprotective cover which encases the tube and protects the collecting partfrom the outer contaminants when it is inserted inside of the women'svagina, wherein a tear line is formed at a closed end part of theprotective cover.
 15. A method for self-collecting intravaginal samplecomprising: a inserting step inserting a finger in the tube whichcomprise an open end part and closed end part then inserting the tubeinto women's vagina; a collecting step collecting a sample of vaginausing a collecting part which is attached an outer surface of the closedend part of the tube by using the finger that is inserted in the tube;and a turnover step turning over inside out of the tube to place thecolleting part inside of the tube and to prevent contaminating thecollecting part from outside contaminants, wherein the collecting parthas already collected the sample of the vagina.
 16. The method of claim15, wherein the turnover step turns over inside out of the tube bypulling a pull string after taking out a finger, wherein the tube isinserted in women's vagina, and wherein one end of the pull string isattached inner surface of the closed end part of the tube.
 17. Themethod of claim 16, further comprising a sealing step sealing the openend part of the tube after the turnover step.
 18. The method of claim16, further comprising a injecting step injecting a fixing solutioninside of the tube to prevent deformation of the sample after theturnover step.
 19. The method of claim 15, wherein the collecting partcomprises a signal color material that could be identified by the nakedeye in reacting to HPV.